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W4254690012 startingPage "155932581878983" @default.
W4254690012 abstract "The adaptive response (AR) phenomenon generally describes a protective effect caused by a “priming” low dose ( d AR ) delivered after a period of time (Δ t AR ) before a higher “challenging” dose ( D AR ). The AR is currently observed in human cells if d AR , Δ t AR , and D AR belong to (0.001-0.5 Gy), (2-24 hours), (0.1-5 Gy), respectively. In order to investigate the molecular mechanisms specific to AR in human cells, we have systematically reviewed the experimental AR protocols, the cellular models, and the biological endpoints used from the 1980s. The AR appears to be preferentially observed in radiosensitive cells and is strongly dependent on individual radiosensitivity. To date, the model of the nucleo-shuttling of the ATM protein provides a relevant mechanistic explanation of the AR molecular and cellular events. Indeed, the priming dose d AR may result in the diffusion of a significant amount of active ATM monomers in the nucleus. These ATM monomers, added to those induced directly by the challenging dose D AR , may increase the efficiency of the response to D AR by a better ATM-dependent DNA damage recognition. Such mechanistic model would also explain why AR is not observed in radioresistant or hyperradiosensitive cells. Further investigations at low dose are needed to consolidate our hypotheses." @default.
W4254690012 created "2022-05-12" @default.
W4254690012 creator A5026718322 @default.
W4254690012 creator A5078290495 @default.
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W4254690012 date "2018-07-01" @default.
W4254690012 modified "2023-09-24" @default.
W4254690012 title "Influence of Individual Radiosensitivity on the Adaptive Response Phenomenon: Toward a Mechanistic Explanation Based on the Nucleo-Shuttling of ATM Protein" @default.
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W4254690012 doi "https://doi.org/10.1177/1559325818789836" @default.
W4254690012 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30093841" @default.
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